2001
DOI: 10.1063/1.1329908
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Three-dimensional centrifugal-flow instabilities in the lid-driven-cavity problem

Abstract: The classical rectangular lid-driven-cavity problem is considered in which the motion of an incompressible fluid is induced by a single lid moving tangentially to itself with constant velocity. In a system infinitely extended in the spanwise direction the flow is two-dimensional for small Reynolds numbers. By a linear stability analysis it is shown that this basic flow becomes unstable at higher Reynolds numbers to four different three-dimensional modes depending on the aspect ratio of the cavity’s cross secti… Show more

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Cited by 145 publications
(252 citation statements)
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References 42 publications
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“…The flow profile has been shown to be approximately constant over much of the width of the cavity in the direction perpendicular to the vortical flow (44). In a low aspect-ratio cavity (w > h), the velocity profile near the center of the cavity is Poiseuille-Couette flow (37,45). Our velocity profile was measured near the center of the array, several hundreds of microns from any lateral boundaries.…”
mentioning
confidence: 91%
“…The flow profile has been shown to be approximately constant over much of the width of the cavity in the direction perpendicular to the vortical flow (44). In a low aspect-ratio cavity (w > h), the velocity profile near the center of the cavity is Poiseuille-Couette flow (37,45). Our velocity profile was measured near the center of the array, several hundreds of microns from any lateral boundaries.…”
mentioning
confidence: 91%
“…Solutions to the real BiGlobal EVP which can be derived from (2-5) using a simple transformation [60] have been obtained subject to the two-dimensional LPPE boundary closure (12) in a spanwise homogeneous square lid-driven cavity [4,58]. On the other hand, flow driven by a constant pressure gradient in a duct of square cross-section [54,63] is an example of wall-bounded flow, instability of which is governed by a complex (two-dimensional) BiGlobal EVP.…”
Section: Resultsmentioning
confidence: 99%
“…Density and dynamic viscosity of liquid samples were measured using the meter SVM 3000 at temperatures measured during the experiment. Density measurement uncertainty was 0.0005 g/cm 3 , viscosity was 0.35%. Best volume measurement capability using volumetric measurement method, taking into account liquid flow rate, varied within range from 0.060 % to 0.065 %.…”
Section: Testing Proceduresmentioning
confidence: 99%
“…Usually at low Re, large scale and low frequency structures accumulating the biggest part of the flow energy are observed. With Re increase, high frequency pulsations indicating the occurrence of thinner (smaller) structures are more vivid [3,4]. Centrifugal forces enable the formation of 3D instabilities.…”
Section: Introductionmentioning
confidence: 99%